MAX9450EHJ データシートの表示（PDF） - Microsemi Corporation

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MAX9450EHJ

High-Precision Clock Generators with Integrated VCXO

Microsemi Corporation 

High-Precision Clock Generators

with Integrated VCXO

where fCLKn is the frequency at the CLKn output, fREF

is the frequency of the reference clock, M (1 to 32,768)

is the dividing factor in the feedback loop, Ni (1, 2, 3, 4,

5, 6, 8, 16) are the dividing factors of the outputs, and P

(1 to 256) is the dividing factor to the input reference

clock. It is possible to set various frequencies at the

two differential CLK_ outputs with this configuration.

For example, in 10 Gigabit Ethernet or SONET applica-

tions, set the dividing factors to generate the required

frequencies, as shown in Table 1.

Input Clock Monitor

Failure Detection

The MAX9450/MAX9451/MAX9452 clock-failure-detec-

tion function monitors the two reference inputs simultane-

ously. If a reference input clock signal (IN_) does not

transition for two or more VCO cycles, the device reports

a failure by setting INT high and bit CR7[6] or CR7[5] to

1. See Table 9. After a reference clock failure, the moni-

tor switches to the other valid input reference. At the

same time, the clock monitor loads CR7 with the status of

the reference clocks and which input is selected. The

mapping of CR7 is given in Table 9. If one of the inputs is

disabled according to the bits in CR5[3:2], then the mon-

itor is disabled.

Revert Function

The response of the MAX9450/MAX9451/MAX9452 to a

detected input failure depends on the setting of the

revert function. If the failed input recovers from the

failure, INT and CR7[5:6] resets to zero if revert is acti-

vated. If the recovered input is selected by CR5[4] as

the default input reference, the MAX9450/MAX9451/

MAX9452 reselect this input. If the revert function is not

activated, once an input failure is detected, the monitor

remains in the failure state with INT = 1 and CR7[5:6] =

1, until the MAX9450/MAX9451/MAX9452 are reset.

Activate the revert function using the bit CR5[1].

Failure-Detection Monitor Reset

Reset the fault by toggling CMON from low to high,

toggling MR or CR6[4] from low to high, or by toggling

the bit CR5[0] from low to high. In revert mode, when

the monitor is reset, INT and CR7[5:6] reset to zero and

the default input is the one indicated by CR5[4].

Holdover Function

The holdover function locks the output frequency to its

nominal value within ±20ppm. Activate this function by

setting CR6[7] to 1. The MAX9450/MAX9451/MAX9452

enter holdover when the devices detect a failure from

both input references. Setting CR6[6] to 1 forces the

device into the holdover state, while resetting CR6[6]

exits holdover.

Use a reset holdover. If the revert function is activated

once an input is recovered from the failure, the device

also exits holdover and switches to the recovered input

reference. If both inputs recover simultaneously, the

device switches to the default input.

VCXO frequency during holdover is the value of the

frequency right before the failure of inputs.

When CR6[5] goes from 0 to 1, the value of the VCXO

frequency is acquired and stored. The VCXO can be

switched to this acquired frequency by setting CR6[1]

to 1. Such a transition can happen in both the normal

mode of operation and the holdover mode.

PLL Lock Detect

The MAX9450/MAX9451/MAX9452 also feature PLL

lock detection. The MAX9450/MAX9451/MAX9452

compare the frequency of the phase-detector input with

the output frequency of the loop frequency divider.

When these two frequencies deviate more than 20ppm,

the LOCK output goes high. At power-up, LOCK is

high. LOCK goes low when the PLL locks. PLL lock

time also depends on the loop filter bandwidth.

Table 1. Output Frequency Selection and Register Content Values

CRYSTAL

FREQUENCY

(MHz)

50

125

125

—

10 GIGABIT ETHERNET

INPUT CLK: 50MHz

P

M

Ni

2

2

1

2

5

2

2

5

1

—

—

—

OUTPUT

FREQUENCY

(MHz)

50

62.5

125

—

CRYSTAL

FREQUENCY

(MHz)

51.84

77.76

155.52

155.52

SONET

INPUT CLK: 19.44MHz

P

M

Ni

1

8

1

1

4

1

1

8

1

1

4

2

OUTPUT

FREQUENCY

(MHz)

51.84

77.76

155.52

77.76

_______________________________________________________________________________________ 9

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